STATIC AND DYNAMIC SCOPE
The scope of a variable is the region of the program in which variable is declared and used.
One of the basic reasons of scoping is to keep variables in different parts of program distinct from one another.
Scope is generally divided into two categories:
1.Static Scope
2.Dynamic Scope
1. Static scope: Static scope is also called lexical scope. Static scope refers to scope of a variable is defined at compile time itself that is when the code is compiled a variable to bounded to some block.
2. Dynamic scope: Dynamic scope refers to scope of a variable is defined at run time rather than at compile time. Perl language allows dynamic scoping.
EasyExamNotes.com covered following topics in these notes.
Principles of Programming Languages:
EasyExamNotes.com covered following topics in these notes.
- Language Evaluation Criteria
- Influences on Language Design
- Language Categories
- Programming Paradigms
- Compilation
- Virtual Machines
- Programming Environments
- Issues in Language Translation
- Parse Tree
- Pointer and Reference type
- Concept of Binding
- Type Checking
- Strong typing
- Sequence control with Expression
- Exception Handling
- Subprograms
- Fundamentals of sub-programs
- Scope and lifetime of variable
- Static and dynamic scope
- Design issues of subprogram and operations
- Local referencing environments
- Parameter passing methods
- Overloaded sub-programs
- Generic sub-programs
- Design issues for functions
- Co routines
- Abstract Data types
- Abstraction and encapsulation
- Static and Stack-Based Storage management
- Garbage Collection
- OOP in C++
- OOP in Java
- OOP in C#
- OOP in PHP
- Concurrency
- Semaphores
- Monitors
- Message passing
- Java threads
- C# threads
- Exception handling
- Exceptions
- Exception Propagation
- Exception handler in C++
- Exception handler in Java
- Introduction and overview of Logic programming
- Basic elements of Prolog
- Application of Logic programming
- Functional programming languages
- Introduction to 4GL
Practicals:
- Memory Implementation of 2D Array.
- Memory Implementation of 3D Array.
- Implementation of pointers in C++.
- Write a program in Java to implement exception handling.
- Write a program in C++ to implement call by value parameter passing Method.
- Write a program in C++ to implement call by reference parameter passing Method.
- Write a program in Java to implement concurrent execution of a job using threads.
- Implement Inheritance in C#.
- Implement Encapsulation in C#.
- Implement static/compiletime Polymorphism in C#.
- Implement dynamic/runtime Polymorphism in C#.
Previous years solved papers:
A list of Video lectures
References:
- Sebesta,”Concept of programming Language”, Pearson Edu
- Louden, “Programming Languages: Principles & Practices” , Cengage Learning
- Tucker, “Programming Languages: Principles and paradigms “, Tata McGraw –Hill.
- E Horowitz, "Programming Languages", 2nd Edition, Addison Wesley
- Memory Implementation of 2D Array.
- Memory Implementation of 3D Array.
- Implementation of pointers in C++.
- Write a program in Java to implement exception handling.
- Write a program in C++ to implement call by value parameter passing Method.
- Write a program in C++ to implement call by reference parameter passing Method.
- Write a program in Java to implement concurrent execution of a job using threads.
- Implement Inheritance in C#.
- Implement Encapsulation in C#.
- Implement static/compiletime Polymorphism in C#.
- Implement dynamic/runtime Polymorphism in C#.
Previous years solved papers:
A list of Video lectures
References:
References:
- Sebesta,”Concept of programming Language”, Pearson Edu
- Louden, “Programming Languages: Principles & Practices” , Cengage Learning
- Tucker, “Programming Languages: Principles and paradigms “, Tata McGraw –Hill.
- E Horowitz, "Programming Languages", 2nd Edition, Addison Wesley